Systems and methods for selectively enabling Robust Header Compression (RoHC) for Voice over Internet Protocol (VoIP) calls in a cellular communications network are disclosed. In one embodiment, a data radio bearer for a VoIP call is established between a base station and a mobile terminal. During the VoIP call, a radio frequency parameter for the data radio bearer is monitored. When the radio frequency parameter for the data radio bearer satisfies a predefined coverage-based condition, the base station enables RoHC for the VoIP call. In one preferred embodiment, the radio frequency parameter is a Signal-to-Interference-plus-Noise Ratio (SINR) for the data radio bearer for the VoIP call, and the predefined coverage-based condition is a predefined SINR threshold below which the base station enables RoHC. By enabling RoHC in this manner, RoHC resources are selectively made available for those VoIP calls that will benefit most from increased cell coverage provided by RoHC.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method of operation of a base station in a cellular communications network, comprising: establishing a data radio bearer between the base station and a mobile terminal for a Voice-Over Internet Protocol (VoIP) call; determining that a radio frequency parameter for the data radio bearer satisfies a predefined coverage-based condition; and in response to determining that the radio frequency parameter for the data radio bearer satisfies the predefined coverage-based condition, enabling Robust Header Compression (RoHC) for the VoIP call wherein enabling RoHC for the VoIP call comprises performing an intra-cell handover of the VoIP call from the data radio bearer to a new data radio bearer that has RoHC enabled.
2. The method of claim 1 further comprising: determining whether the base station has available RoHC resources; and wherein enabling RoHC for the VoIP call comprises enabling RoHC for the VoIP call if the base station has available RoHC resources.
3. A method of operation of a base station in a cellular communications network, comprising: establishing a data radio bearer between the base station and a mobile terminal for a Voice-Over Internet Protocol (VoIP) call; determining that a radio frequency parameter for the data radio bearer satisfies a predefined coverage-based condition, wherein the radio frequency parameter is a Signal-to-Interference-plus-Noise Ratio (SINR) parameter, and the predefined coverage-based condition is a predefined SINR threshold for triggering Transmission Time Interval (TTI) bundling; and in response to determining that the radio frequency parameter for the data radio bearer satisfies the predefined coverage-based condition, enabling Robust Header Compression (RoHC) for the VoIP call.
4. The method of claim 3 wherein: determining that the radio frequency parameter for the data radio bearer satisfies the predefined coverage-based condition comprises determining that the SINR parameter is less than the predefined SINR threshold for TTI bundling; and enabling RoHC for the VoIP call comprises enabling both TTI bundling and RoHC for the VoIP call in response to determining that the SINR parameter is less than the predefined SINR threshold for TTI bundling.
5. The method of claim 4 further comprising: determining whether the base station has available RoHC resources; wherein enabling both TTI bundling and RoHC for the VoIP call comprises enabling both TTI bundling and RoHC for the VoIP call if the base station has available RoHC resources.
6. The method of claim 3 wherein enabling both TTI bundling and RoHC for the VoIP call comprises simultaneously enabling both TTI bundling and RoHC for the VoIP call.
7. The method of claim 6 wherein simultaneously enabling both TTI bundling and RoHC for the VoIP call comprises performing an intra-cell handover of the VoIP call from the data radio bearer to a new data radio bearer that has both TTI bundling and RoHC enabled.
8. The method of claim 6 further comprising: determining whether the base station has available RoHC resources; wherein simultaneously enabling both TTI bundling and RoHC for the VoIP call comprises performing an intra-cell handover of the VoIP call from the data radio bearer to a new data radio bearer that has both TTI bundling and RoHC enabled if the base station has available RoHC resources.
9. The method of claim 8 wherein the base station has a finite amount of RoHC resources that are logically divided into a first-come, first-serve RoHC resource pool and a selective RoHC resource pool, and determining whether the base station has available RoHC resources comprises: determining whether there are available RoHC resources in the first-come, first-serve RoHC resource pool; and if there are no available resources in the first-come, first-serve RoHC resource pool, determining whether there are available RoHC resources in the selective RoHC resource pool.
10. A base station in a cellular communications network, comprising: a transceiver subsystem; and a processing subsystem associated with the transceiver subsystem configured to: establish, via the transceiver subsystem, a data radio bearer between the base station and a mobile terminal for a Voice-Over Internet Protocol (VoIP) call; determine that a radio frequency parameter for the data radio bearer satisfies a predefined coverage-based condition; and in response to determining that the radio frequency parameter for the data radio bearer satisfies the predefined coverage-based condition, enable Robust Header Compression (RoHC) for the VoIP call, wherein, in order to enable RoHC for the call, the processing subsystem is further configured to perform an intra-cell handover of the VoIP call from the data radio bearer to a new data radio bearer that has RoHC enabled.
11. The base station of claim 10 wherein the processing subsystem is further configured to: determine whether the base station has available RoHC resources; and enable RoHC for the VoIP call if the base station has available RoHC resources.
12. A base station in a cellular communications network, comprising: a transceiver subsystem; and a processing subsystem associated with the transceiver subsystem configured to: establish, via the transceiver subsystem, a data radio bearer between the base station and a mobile terminal for a Voice-Over Internet Protocol (VoIP) call; determine that a radio frequency parameter for the data radio bearer satisfies a predefined coverage-based condition, wherein the radio frequency parameter is a Signal-to-Interference-plus-Noise Ratio (SINR) parameter, and the predefined coverage-based condition is a predefined SINR threshold for triggering Transmission Time Interval (TTI) bundling; and in response to determining that the radio frequency parameter for the data radio bearer satisfies the predefined coverage-based condition, enable Robust Header Compression (RoHC) for the VoIP call.
13. The base station of claim 12 wherein the processing subsystem is further configured to: determine that the SINR parameter is less than the predefined SINR threshold for TTI bundling; and enable both TTI bundling and RoHC for the VoIP call in response to determining that the SINR parameter is less than the predefined SINR threshold for TTI bundling.
14. The base station of claim 13 wherein the processing subsystem is further configured to: determine whether the base station has available RoHC resources; and enable both TTI bundling and RoHC for the VoIP call if the base station has available RoHC resources.
15. The base station of claim 12 wherein the processing subsystem is further configured to simultaneously enable both TTI bundling and RoHC for the VoIP call if the base station has available RoHC resources.
16. The base station of claim 15 wherein the processing subsystem is further configured to simultaneously enabling both TTI bundling and RoHC for the VoIP call via an intra-cell handover of the VoIP call from the data radio bearer to a new data radio bearer that has both TTI bundling and RoHC enabled.
17. The base station of claim 15 wherein the processing subsystem is further configured to: determine whether the base station has available RoHC resources; and simultaneously enable both TTI bundling and RoHC for the VoIP call via the intra-cell handover of the VoIP call from the data radio bearer to the new data radio bearer that has both TTI bundling and RoHC enabled if the base station has available RoHC resources.
18. The base station of claim 17 wherein the processing subsystem comprises a finite amount of RoHC resources that are logically divided into a first-come, first-serve RoHC resource pool and a selective RoHC resource pool, and, in order to determine whether the processing subsystem has available RoHC resources, the processing subsystem is further configured to: determine whether there are available RoHC resources in the first-come, first-serve RoHC resource pool; and if there are no available resources in the first-come, first-serve RoHC resource pool, determine whether there are available RoHC resources in the selective RoHC resource pool.
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November 13, 2012
October 11, 2016
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